//===- GISelUtilsTest.cpp -------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "GISelMITest.h" #include "llvm/CodeGen/GlobalISel/Utils.h" #include "gtest/gtest.h" using namespace llvm; namespace { static const LLT S1 = LLT::scalar(1); static const LLT S8 = LLT::scalar(8); static const LLT S16 = LLT::scalar(16); static const LLT S32 = LLT::scalar(32); static const LLT S64 = LLT::scalar(64); static const LLT P0 = LLT::pointer(0, 64); static const LLT P1 = LLT::pointer(1, 32); static const LLT V2S8 = LLT::fixed_vector(2, 8); static const LLT V4S8 = LLT::fixed_vector(4, 8); static const LLT V8S8 = LLT::fixed_vector(8, 8); static const LLT V2S16 = LLT::fixed_vector(2, 16); static const LLT V3S16 = LLT::fixed_vector(3, 16); static const LLT V4S16 = LLT::fixed_vector(4, 16); static const LLT V2S32 = LLT::fixed_vector(2, 32); static const LLT V3S32 = LLT::fixed_vector(3, 32); static const LLT V4S32 = LLT::fixed_vector(4, 32); static const LLT V6S32 = LLT::fixed_vector(6, 32); static const LLT V2S64 = LLT::fixed_vector(2, 64); static const LLT V3S64 = LLT::fixed_vector(3, 64); static const LLT V4S64 = LLT::fixed_vector(4, 64); static const LLT V2P0 = LLT::fixed_vector(2, P0); static const LLT V3P0 = LLT::fixed_vector(3, P0); static const LLT V4P0 = LLT::fixed_vector(4, P0); static const LLT V6P0 = LLT::fixed_vector(6, P0); static const LLT V2P1 = LLT::fixed_vector(2, P1); static const LLT V4P1 = LLT::fixed_vector(4, P1); static const LLT NXV1S1 = LLT::scalable_vector(1, S1); static const LLT NXV2S1 = LLT::scalable_vector(2, S1); static const LLT NXV3S1 = LLT::scalable_vector(3, S1); static const LLT NXV4S1 = LLT::scalable_vector(4, S1); static const LLT NXV12S1 = LLT::scalable_vector(12, S1); static const LLT NXV32S1 = LLT::scalable_vector(32, S1); static const LLT NXV64S1 = LLT::scalable_vector(64, S1); static const LLT NXV128S1 = LLT::scalable_vector(128, S1); static const LLT NXV384S1 = LLT::scalable_vector(384, S1); static const LLT NXV1S32 = LLT::scalable_vector(1, S32); static const LLT NXV2S32 = LLT::scalable_vector(2, S32); static const LLT NXV3S32 = LLT::scalable_vector(3, S32); static const LLT NXV4S32 = LLT::scalable_vector(4, S32); static const LLT NXV8S32 = LLT::scalable_vector(8, S32); static const LLT NXV12S32 = LLT::scalable_vector(12, S32); static const LLT NXV24S32 = LLT::scalable_vector(24, S32); static const LLT NXV1S64 = LLT::scalable_vector(1, S64); static const LLT NXV2S64 = LLT::scalable_vector(2, S64); static const LLT NXV3S64 = LLT::scalable_vector(3, S64); static const LLT NXV4S64 = LLT::scalable_vector(4, S64); static const LLT NXV6S64 = LLT::scalable_vector(6, S64); static const LLT NXV12S64 = LLT::scalable_vector(12, S64); static const LLT NXV1P0 = LLT::scalable_vector(1, P0); static const LLT NXV2P0 = LLT::scalable_vector(2, P0); static const LLT NXV3P0 = LLT::scalable_vector(3, P0); static const LLT NXV4P0 = LLT::scalable_vector(4, P0); static const LLT NXV12P0 = LLT::scalable_vector(12, P0); static void collectNonCopyMI(SmallVectorImpl &MIList, MachineFunction *MF) { for (auto &MBB : *MF) for (MachineInstr &MI : MBB) { if (MI.getOpcode() != TargetOpcode::COPY) MIList.push_back(&MI); } } TEST(GISelUtilsTest, getGCDType) { EXPECT_EQ(S1, getGCDType(S1, S1)); EXPECT_EQ(S32, getGCDType(S32, S32)); EXPECT_EQ(S1, getGCDType(S1, S32)); EXPECT_EQ(S1, getGCDType(S32, S1)); EXPECT_EQ(S16, getGCDType(S16, S32)); EXPECT_EQ(S16, getGCDType(S32, S16)); EXPECT_EQ(V2S32, getGCDType(V2S32, V2S32)); EXPECT_EQ(S32, getGCDType(V3S32, V2S32)); EXPECT_EQ(S32, getGCDType(V2S32, V3S32)); EXPECT_EQ(V2S16, getGCDType(V4S16, V2S16)); EXPECT_EQ(V2S16, getGCDType(V2S16, V4S16)); EXPECT_EQ(V2S32, getGCDType(V4S32, V2S32)); EXPECT_EQ(V2S32, getGCDType(V2S32, V4S32)); EXPECT_EQ(S16, getGCDType(P0, S16)); EXPECT_EQ(S16, getGCDType(S16, P0)); EXPECT_EQ(S32, getGCDType(P0, S32)); EXPECT_EQ(S32, getGCDType(S32, P0)); EXPECT_EQ(P0, getGCDType(P0, S64)); EXPECT_EQ(S64, getGCDType(S64, P0)); EXPECT_EQ(S32, getGCDType(P0, P1)); EXPECT_EQ(S32, getGCDType(P1, P0)); EXPECT_EQ(P0, getGCDType(V3P0, V2P0)); EXPECT_EQ(P0, getGCDType(V2P0, V3P0)); EXPECT_EQ(P0, getGCDType(P0, V2P0)); EXPECT_EQ(P0, getGCDType(V2P0, P0)); EXPECT_EQ(V2P0, getGCDType(V2P0, V2P0)); EXPECT_EQ(P0, getGCDType(V3P0, V2P0)); EXPECT_EQ(P0, getGCDType(V2P0, V3P0)); EXPECT_EQ(V2P0, getGCDType(V4P0, V2P0)); EXPECT_EQ(V2P0, getGCDType(V2P0, V4P1)); EXPECT_EQ(V4P1, getGCDType(V4P1, V2P0)); EXPECT_EQ(V2P0, getGCDType(V4P0, V4P1)); EXPECT_EQ(V4P1, getGCDType(V4P1, V4P0)); // Elements have same size, but have different pointeriness, so prefer the // original element type. EXPECT_EQ(V2P0, getGCDType(V2P0, V4S64)); EXPECT_EQ(V2S64, getGCDType(V4S64, V2P0)); EXPECT_EQ(V2S16, getGCDType(V2S16, V4P1)); EXPECT_EQ(P1, getGCDType(V4P1, V2S16)); EXPECT_EQ(V2P1, getGCDType(V4P1, V4S16)); EXPECT_EQ(V4S16, getGCDType(V4S16, V2P1)); EXPECT_EQ(P0, getGCDType(P0, V2S64)); EXPECT_EQ(S64, getGCDType(V2S64, P0)); EXPECT_EQ(S16, getGCDType(V2S16, V3S16)); EXPECT_EQ(S16, getGCDType(V3S16, V2S16)); EXPECT_EQ(S16, getGCDType(V3S16, S16)); EXPECT_EQ(S16, getGCDType(S16, V3S16)); EXPECT_EQ(V2S16, getGCDType(V2S16, V2S32)); EXPECT_EQ(S32, getGCDType(V2S32, V2S16)); EXPECT_EQ(V4S8, getGCDType(V4S8, V2S32)); EXPECT_EQ(S32, getGCDType(V2S32, V4S8)); // Test cases where neither element type nicely divides. EXPECT_EQ(LLT::scalar(3), getGCDType(LLT::fixed_vector(3, 5), LLT::fixed_vector(2, 6))); EXPECT_EQ(LLT::scalar(3), getGCDType(LLT::fixed_vector(2, 6), LLT::fixed_vector(3, 5))); // Have to go smaller than a pointer element. EXPECT_EQ(LLT::scalar(3), getGCDType(LLT::fixed_vector(2, LLT::pointer(3, 6)), LLT::fixed_vector(3, 5))); EXPECT_EQ(LLT::scalar(3), getGCDType(LLT::fixed_vector(3, 5), LLT::fixed_vector(2, LLT::pointer(3, 6)))); EXPECT_EQ(V4S8, getGCDType(V4S8, S32)); EXPECT_EQ(S32, getGCDType(S32, V4S8)); EXPECT_EQ(V4S8, getGCDType(V4S8, P1)); EXPECT_EQ(P1, getGCDType(P1, V4S8)); EXPECT_EQ(V2S8, getGCDType(V2S8, V4S16)); EXPECT_EQ(S16, getGCDType(V4S16, V2S8)); EXPECT_EQ(S8, getGCDType(V2S8, LLT::fixed_vector(4, 2))); EXPECT_EQ(LLT::fixed_vector(4, 2), getGCDType(LLT::fixed_vector(4, 2), S8)); EXPECT_EQ(LLT::pointer(4, 8), getGCDType(LLT::fixed_vector(2, LLT::pointer(4, 8)), LLT::fixed_vector(4, 2))); EXPECT_EQ(LLT::fixed_vector(4, 2), getGCDType(LLT::fixed_vector(4, 2), LLT::fixed_vector(2, LLT::pointer(4, 8)))); EXPECT_EQ(LLT::scalar(4), getGCDType(LLT::fixed_vector(3, 4), S8)); EXPECT_EQ(LLT::scalar(4), getGCDType(S8, LLT::fixed_vector(3, 4))); // Scalable -> Scalable EXPECT_EQ(NXV1S1, getGCDType(NXV1S1, NXV1S32)); EXPECT_EQ(NXV1S32, getGCDType(NXV1S64, NXV1S32)); EXPECT_EQ(NXV1S32, getGCDType(NXV1S32, NXV1S64)); EXPECT_EQ(NXV1P0, getGCDType(NXV1P0, NXV1S64)); EXPECT_EQ(NXV1S64, getGCDType(NXV1S64, NXV1P0)); EXPECT_EQ(NXV4S1, getGCDType(NXV4S1, NXV4S32)); EXPECT_EQ(NXV2S64, getGCDType(NXV4S64, NXV4S32)); EXPECT_EQ(NXV4S32, getGCDType(NXV4S32, NXV4S64)); EXPECT_EQ(NXV4P0, getGCDType(NXV4P0, NXV4S64)); EXPECT_EQ(NXV4S64, getGCDType(NXV4S64, NXV4P0)); EXPECT_EQ(NXV4S1, getGCDType(NXV4S1, NXV2S32)); EXPECT_EQ(NXV1S64, getGCDType(NXV4S64, NXV2S32)); EXPECT_EQ(NXV4S32, getGCDType(NXV4S32, NXV2S64)); EXPECT_EQ(NXV2P0, getGCDType(NXV4P0, NXV2S64)); EXPECT_EQ(NXV2S64, getGCDType(NXV4S64, NXV2P0)); EXPECT_EQ(NXV2S1, getGCDType(NXV2S1, NXV4S32)); EXPECT_EQ(NXV2S64, getGCDType(NXV2S64, NXV4S32)); EXPECT_EQ(NXV2S32, getGCDType(NXV2S32, NXV4S64)); EXPECT_EQ(NXV2P0, getGCDType(NXV2P0, NXV4S64)); EXPECT_EQ(NXV2S64, getGCDType(NXV2S64, NXV4P0)); EXPECT_EQ(NXV1S1, getGCDType(NXV3S1, NXV4S32)); EXPECT_EQ(NXV1S64, getGCDType(NXV3S64, NXV4S32)); EXPECT_EQ(NXV1S32, getGCDType(NXV3S32, NXV4S64)); EXPECT_EQ(NXV1P0, getGCDType(NXV3P0, NXV4S64)); EXPECT_EQ(NXV1S64, getGCDType(NXV3S64, NXV4P0)); EXPECT_EQ(NXV1S1, getGCDType(NXV3S1, NXV4S1)); EXPECT_EQ(NXV1S32, getGCDType(NXV3S32, NXV4S32)); EXPECT_EQ(NXV1S64, getGCDType(NXV3S64, NXV4S64)); EXPECT_EQ(NXV1P0, getGCDType(NXV3P0, NXV4P0)); // Scalable, Scalar EXPECT_EQ(S1, getGCDType(NXV1S1, S1)); EXPECT_EQ(S1, getGCDType(NXV1S1, S32)); EXPECT_EQ(S1, getGCDType(NXV1S32, S1)); EXPECT_EQ(S32, getGCDType(NXV1S32, S32)); EXPECT_EQ(S32, getGCDType(NXV1S32, S64)); EXPECT_EQ(S1, getGCDType(NXV2S32, S1)); EXPECT_EQ(S32, getGCDType(NXV2S32, S32)); EXPECT_EQ(S32, getGCDType(NXV2S32, S64)); EXPECT_EQ(S1, getGCDType(S1, NXV1S1)); EXPECT_EQ(S1, getGCDType(S32, NXV1S1)); EXPECT_EQ(S1, getGCDType(S1, NXV1S32)); EXPECT_EQ(S32, getGCDType(S32, NXV1S32)); EXPECT_EQ(S32, getGCDType(S64, NXV1S32)); EXPECT_EQ(S1, getGCDType(S1, NXV2S32)); EXPECT_EQ(S32, getGCDType(S32, NXV2S32)); EXPECT_EQ(S32, getGCDType(S64, NXV2S32)); } TEST(GISelUtilsTest, getLCMType) { EXPECT_EQ(S1, getLCMType(S1, S1)); EXPECT_EQ(S32, getLCMType(S32, S1)); EXPECT_EQ(S32, getLCMType(S1, S32)); EXPECT_EQ(S32, getLCMType(S32, S32)); EXPECT_EQ(S32, getLCMType(S32, S16)); EXPECT_EQ(S32, getLCMType(S16, S32)); EXPECT_EQ(S64, getLCMType(S64, P0)); EXPECT_EQ(P0, getLCMType(P0, S64)); EXPECT_EQ(P0, getLCMType(S32, P0)); EXPECT_EQ(P0, getLCMType(P0, S32)); EXPECT_EQ(S32, getLCMType(S32, P1)); EXPECT_EQ(P1, getLCMType(P1, S32)); EXPECT_EQ(P0, getLCMType(P0, P0)); EXPECT_EQ(P1, getLCMType(P1, P1)); EXPECT_EQ(P0, getLCMType(P0, P1)); EXPECT_EQ(P0, getLCMType(P1, P0)); EXPECT_EQ(V2S32, getLCMType(V2S32, V2S32)); EXPECT_EQ(V2S32, getLCMType(V2S32, S32)); EXPECT_EQ(V2S32, getLCMType(S32, V2S32)); EXPECT_EQ(V2S32, getLCMType(V2S32, V2S32)); EXPECT_EQ(V6S32, getLCMType(V2S32, V3S32)); EXPECT_EQ(V6S32, getLCMType(V3S32, V2S32)); EXPECT_EQ(LLT::fixed_vector(12, S32), getLCMType(V4S32, V3S32)); EXPECT_EQ(LLT::fixed_vector(12, S32), getLCMType(V3S32, V4S32)); EXPECT_EQ(V2P0, getLCMType(V2P0, V2P0)); EXPECT_EQ(V2P0, getLCMType(V2P0, P0)); EXPECT_EQ(V2P0, getLCMType(P0, V2P0)); EXPECT_EQ(V2P0, getLCMType(V2P0, V2P0)); EXPECT_EQ(V6P0, getLCMType(V2P0, V3P0)); EXPECT_EQ(V6P0, getLCMType(V3P0, V2P0)); EXPECT_EQ(LLT::fixed_vector(12, P0), getLCMType(V4P0, V3P0)); EXPECT_EQ(LLT::fixed_vector(12, P0), getLCMType(V3P0, V4P0)); EXPECT_EQ(LLT::fixed_vector(12, S64), getLCMType(V4S64, V3P0)); EXPECT_EQ(LLT::fixed_vector(12, P0), getLCMType(V3P0, V4S64)); EXPECT_EQ(LLT::fixed_vector(12, P0), getLCMType(V4P0, V3S64)); EXPECT_EQ(LLT::fixed_vector(12, S64), getLCMType(V3S64, V4P0)); EXPECT_EQ(V2P0, getLCMType(V2P0, S32)); EXPECT_EQ(V4S32, getLCMType(S32, V2P0)); EXPECT_EQ(V2P0, getLCMType(V2P0, S64)); EXPECT_EQ(V2S64, getLCMType(S64, V2P0)); EXPECT_EQ(V2P0, getLCMType(V2P0, V2P1)); EXPECT_EQ(V4P1, getLCMType(V2P1, V2P0)); EXPECT_EQ(V2P0, getLCMType(V2P0, V4P1)); EXPECT_EQ(V4P1, getLCMType(V4P1, V2P0)); EXPECT_EQ(V2S32, getLCMType(V2S32, S64)); EXPECT_EQ(S64, getLCMType(S64, V2S32)); EXPECT_EQ(V4S16, getLCMType(V4S16, V2S32)); EXPECT_EQ(V2S32, getLCMType(V2S32, V4S16)); EXPECT_EQ(V2S32, getLCMType(V2S32, V4S8)); EXPECT_EQ(V8S8, getLCMType(V4S8, V2S32)); EXPECT_EQ(V2S16, getLCMType(V2S16, V4S8)); EXPECT_EQ(V4S8, getLCMType(V4S8, V2S16)); EXPECT_EQ(LLT::fixed_vector(6, S16), getLCMType(V3S16, V4S8)); EXPECT_EQ(LLT::fixed_vector(12, S8), getLCMType(V4S8, V3S16)); EXPECT_EQ(V4S16, getLCMType(V4S16, V4S8)); EXPECT_EQ(V8S8, getLCMType(V4S8, V4S16)); EXPECT_EQ(LLT::fixed_vector(6, 4), getLCMType(LLT::fixed_vector(3, 4), S8)); EXPECT_EQ(LLT::fixed_vector(3, 8), getLCMType(S8, LLT::fixed_vector(3, 4))); EXPECT_EQ(LLT::fixed_vector(6, 4), getLCMType(LLT::fixed_vector(3, 4), LLT::pointer(4, 8))); EXPECT_EQ(LLT::fixed_vector(3, LLT::pointer(4, 8)), getLCMType(LLT::pointer(4, 8), LLT::fixed_vector(3, 4))); EXPECT_EQ(V2S64, getLCMType(V2S64, P0)); EXPECT_EQ(V2P0, getLCMType(P0, V2S64)); EXPECT_EQ(V2S64, getLCMType(V2S64, P1)); EXPECT_EQ(V4P1, getLCMType(P1, V2S64)); // Scalable, Scalable EXPECT_EQ(NXV32S1, getLCMType(NXV1S1, NXV1S32)); EXPECT_EQ(NXV1S64, getLCMType(NXV1S64, NXV1S32)); EXPECT_EQ(NXV2S32, getLCMType(NXV1S32, NXV1S64)); EXPECT_EQ(NXV1P0, getLCMType(NXV1P0, NXV1S64)); EXPECT_EQ(NXV1S64, getLCMType(NXV1S64, NXV1P0)); EXPECT_EQ(NXV128S1, getLCMType(NXV4S1, NXV4S32)); EXPECT_EQ(NXV4S64, getLCMType(NXV4S64, NXV4S32)); EXPECT_EQ(NXV8S32, getLCMType(NXV4S32, NXV4S64)); EXPECT_EQ(NXV4P0, getLCMType(NXV4P0, NXV4S64)); EXPECT_EQ(NXV4S64, getLCMType(NXV4S64, NXV4P0)); EXPECT_EQ(NXV64S1, getLCMType(NXV4S1, NXV2S32)); EXPECT_EQ(NXV4S64, getLCMType(NXV4S64, NXV2S32)); EXPECT_EQ(NXV4S32, getLCMType(NXV4S32, NXV2S64)); EXPECT_EQ(NXV4P0, getLCMType(NXV4P0, NXV2S64)); EXPECT_EQ(NXV4S64, getLCMType(NXV4S64, NXV2P0)); EXPECT_EQ(NXV128S1, getLCMType(NXV2S1, NXV4S32)); EXPECT_EQ(NXV2S64, getLCMType(NXV2S64, NXV4S32)); EXPECT_EQ(NXV8S32, getLCMType(NXV2S32, NXV4S64)); EXPECT_EQ(NXV4P0, getLCMType(NXV2P0, NXV4S64)); EXPECT_EQ(NXV4S64, getLCMType(NXV2S64, NXV4P0)); EXPECT_EQ(NXV384S1, getLCMType(NXV3S1, NXV4S32)); EXPECT_EQ(NXV6S64, getLCMType(NXV3S64, NXV4S32)); EXPECT_EQ(NXV24S32, getLCMType(NXV3S32, NXV4S64)); EXPECT_EQ(NXV12P0, getLCMType(NXV3P0, NXV4S64)); EXPECT_EQ(NXV12S64, getLCMType(NXV3S64, NXV4P0)); EXPECT_EQ(NXV12S1, getLCMType(NXV3S1, NXV4S1)); EXPECT_EQ(NXV12S32, getLCMType(NXV3S32, NXV4S32)); EXPECT_EQ(NXV12S64, getLCMType(NXV3S64, NXV4S64)); EXPECT_EQ(NXV12P0, getLCMType(NXV3P0, NXV4P0)); // Scalable, Scalar EXPECT_EQ(NXV1S1, getLCMType(NXV1S1, S1)); EXPECT_EQ(NXV32S1, getLCMType(NXV1S1, S32)); EXPECT_EQ(NXV1S32, getLCMType(NXV1S32, S1)); EXPECT_EQ(NXV1S32, getLCMType(NXV1S32, S32)); EXPECT_EQ(NXV2S32, getLCMType(NXV1S32, S64)); EXPECT_EQ(NXV2S32, getLCMType(NXV2S32, S1)); EXPECT_EQ(NXV2S32, getLCMType(NXV2S32, S32)); EXPECT_EQ(NXV2S32, getLCMType(NXV2S32, S64)); EXPECT_EQ(NXV1S1, getLCMType(S1, NXV1S1)); EXPECT_EQ(NXV1S32, getLCMType(S32, NXV1S1)); EXPECT_EQ(NXV32S1, getLCMType(S1, NXV1S32)); EXPECT_EQ(NXV1S32, getLCMType(S32, NXV1S32)); EXPECT_EQ(NXV1S64, getLCMType(S64, NXV1S32)); EXPECT_EQ(NXV64S1, getLCMType(S1, NXV2S32)); EXPECT_EQ(NXV2S32, getLCMType(S32, NXV2S32)); EXPECT_EQ(NXV1S64, getLCMType(S64, NXV2S32)); } TEST_F(AArch64GISelMITest, ConstFalseTest) { setUp(); if (!TM) GTEST_SKIP(); const auto &TLI = *B.getMF().getSubtarget().getTargetLowering(); bool BooleanChoices[2] = {true, false}; // AArch64 uses ZeroOrOneBooleanContent for scalars, and // ZeroOrNegativeOneBooleanContent for vectors. for (auto IsVec : BooleanChoices) { for (auto IsFP : BooleanChoices) { EXPECT_TRUE(isConstFalseVal(TLI, 0, IsVec, IsFP)); EXPECT_FALSE(isConstFalseVal(TLI, 1, IsVec, IsFP)); // This would be true with UndefinedBooleanContent. EXPECT_FALSE(isConstFalseVal(TLI, 2, IsVec, IsFP)); } } } TEST_F(AMDGPUGISelMITest, isConstantOrConstantSplatVectorFP) { StringRef MIRString = " %cst0:_(s32) = G_FCONSTANT float 2.000000e+00\n" " %cst1:_(s32) = G_FCONSTANT float 0.0\n" " %cst2:_(s64) = G_FCONSTANT double 3.000000e-02\n" " %cst3:_(s32) = G_CONSTANT i32 2\n" " %cst4:_(<2 x s32>) = G_BUILD_VECTOR %cst0(s32), %cst0(s32)\n" " %cst5:_(<2 x s32>) = G_BUILD_VECTOR %cst1(s32), %cst0(s32)\n" " %cst6:_(<2 x s64>) = G_BUILD_VECTOR %cst2(s64), %cst2(s64)\n" " %cst7:_(<2 x s32>) = G_BUILD_VECTOR %cst3(s32), %cst3:_(s32)\n" " %cst8:_(<4 x s32>) = G_CONCAT_VECTORS %cst4:_(<2 x s32>), %cst4:_(<2 " "x s32>)\n" " %cst9:_(<4 x s64>) = G_CONCAT_VECTORS %cst6:_(<2 x s64>), %cst6:_(<2 " "x s64>)\n" " %cst10:_(<4 x s32>) = G_CONCAT_VECTORS %cst4:_(<2 x s32>), %cst5:_(<2 " "x s32>)\n" " %cst11:_(<4 x s32>) = G_CONCAT_VECTORS %cst7:_(<2 x s32>), %cst7:_(<2 " "x s32>)\n" " %cst12:_(s32) = G_IMPLICIT_DEF \n" " %cst13:_(<2 x s32>) = G_BUILD_VECTOR %cst12(s32), %cst12(s32)\n" " %cst14:_(<2 x s32>) = G_BUILD_VECTOR %cst0(s32), %cst12(s32)\n" " %cst15:_(<4 x s32>) = G_CONCAT_VECTORS %cst4:_(<2 x s32>), " "%cst14:_(<2 " "x s32>)\n"; SmallVector MIList; setUp(MIRString); if (!TM) GTEST_SKIP(); collectNonCopyMI(MIList, MF); EXPECT_TRUE(isConstantOrConstantSplatVectorFP(*MIList[0], *MRI).has_value()); auto val = isConstantOrConstantSplatVectorFP(*MIList[0], *MRI).value(); EXPECT_EQ(2.0, val.convertToFloat()); EXPECT_TRUE(isConstantOrConstantSplatVectorFP(*MIList[1], *MRI).has_value()); val = isConstantOrConstantSplatVectorFP(*MIList[1], *MRI).value(); EXPECT_EQ(0.0, val.convertToFloat()); EXPECT_TRUE(isConstantOrConstantSplatVectorFP(*MIList[2], *MRI).has_value()); val = isConstantOrConstantSplatVectorFP(*MIList[2], *MRI).value(); EXPECT_EQ(0.03, val.convertToDouble()); EXPECT_FALSE(isConstantOrConstantSplatVectorFP(*MIList[3], *MRI).has_value()); EXPECT_TRUE(isConstantOrConstantSplatVectorFP(*MIList[4], *MRI).has_value()); val = isConstantOrConstantSplatVectorFP(*MIList[4], *MRI).value(); EXPECT_EQ(2.0, val.convertToFloat()); EXPECT_FALSE(isConstantOrConstantSplatVectorFP(*MIList[5], *MRI).has_value()); EXPECT_TRUE(isConstantOrConstantSplatVectorFP(*MIList[6], *MRI).has_value()); val = isConstantOrConstantSplatVectorFP(*MIList[6], *MRI).value(); EXPECT_EQ(0.03, val.convertToDouble()); EXPECT_FALSE(isConstantOrConstantSplatVectorFP(*MIList[7], *MRI).has_value()); EXPECT_TRUE(isConstantOrConstantSplatVectorFP(*MIList[8], *MRI).has_value()); val = isConstantOrConstantSplatVectorFP(*MIList[8], *MRI).value(); EXPECT_EQ(2.0, val.convertToFloat()); EXPECT_TRUE(isConstantOrConstantSplatVectorFP(*MIList[9], *MRI).has_value()); val = isConstantOrConstantSplatVectorFP(*MIList[9], *MRI).value(); EXPECT_EQ(0.03, val.convertToDouble()); EXPECT_FALSE( isConstantOrConstantSplatVectorFP(*MIList[10], *MRI).has_value()); EXPECT_FALSE( isConstantOrConstantSplatVectorFP(*MIList[11], *MRI).has_value()); EXPECT_FALSE( isConstantOrConstantSplatVectorFP(*MIList[12], *MRI).has_value()); EXPECT_FALSE( isConstantOrConstantSplatVectorFP(*MIList[13], *MRI).has_value()); EXPECT_FALSE( isConstantOrConstantSplatVectorFP(*MIList[14], *MRI).has_value()); EXPECT_FALSE( isConstantOrConstantSplatVectorFP(*MIList[15], *MRI).has_value()); } }